Abstract
Radiation-thermal resistant greases were developed, using pentaphenyl ether (5P4E) and mono-alkyltetraphenyl ether (R-4P) for base oil and bentonite (B) for thickeners. The radiation-thermal resistance of the greases were evaluated by measuring changes in penetration, oil separation, weight loss (amount of volatilized and/or evaporated base oil), and molecular weight of base oil after irradiation with {gamma}-rays at high temperatures (125, 150, 175 and 200degC). The greases showed excellent stability against both radiation and high temperature, and was found usable under the condition up to 4 MGy at 150degC. (author).
Arakawa, Kazuo;
Sasuga, Tuneo;
Seguchi, Tadao;
[1]
Soda, Takao;
Nakanishi, Hiroshi;
Akada, Tamio;
Yagi, Tetsuya;
Hagiwara, Miyuki
- Japan Atomic Energy Research Inst., Takasaki, Gunma (Japan). Takasaki Radiation Chemistry Research Establishment
Citation Formats
Arakawa, Kazuo, Sasuga, Tuneo, Seguchi, Tadao, Soda, Takao, Nakanishi, Hiroshi, Akada, Tamio, Yagi, Tetsuya, and Hagiwara, Miyuki.
Study on radiation-induced deterioration of grease at high temperature, 3. Development of radiation-thermal resistant grease.
Japan: N. p.,
1992.
Web.
Arakawa, Kazuo, Sasuga, Tuneo, Seguchi, Tadao, Soda, Takao, Nakanishi, Hiroshi, Akada, Tamio, Yagi, Tetsuya, & Hagiwara, Miyuki.
Study on radiation-induced deterioration of grease at high temperature, 3. Development of radiation-thermal resistant grease.
Japan.
Arakawa, Kazuo, Sasuga, Tuneo, Seguchi, Tadao, Soda, Takao, Nakanishi, Hiroshi, Akada, Tamio, Yagi, Tetsuya, and Hagiwara, Miyuki.
1992.
"Study on radiation-induced deterioration of grease at high temperature, 3. Development of radiation-thermal resistant grease."
Japan.
@misc{etde_10150599,
title = {Study on radiation-induced deterioration of grease at high temperature, 3. Development of radiation-thermal resistant grease}
author = {Arakawa, Kazuo, Sasuga, Tuneo, Seguchi, Tadao, Soda, Takao, Nakanishi, Hiroshi, Akada, Tamio, Yagi, Tetsuya, and Hagiwara, Miyuki}
abstractNote = {Radiation-thermal resistant greases were developed, using pentaphenyl ether (5P4E) and mono-alkyltetraphenyl ether (R-4P) for base oil and bentonite (B) for thickeners. The radiation-thermal resistance of the greases were evaluated by measuring changes in penetration, oil separation, weight loss (amount of volatilized and/or evaporated base oil), and molecular weight of base oil after irradiation with {gamma}-rays at high temperatures (125, 150, 175 and 200degC). The greases showed excellent stability against both radiation and high temperature, and was found usable under the condition up to 4 MGy at 150degC. (author).}
place = {Japan}
year = {1992}
month = {Nov}
}
title = {Study on radiation-induced deterioration of grease at high temperature, 3. Development of radiation-thermal resistant grease}
author = {Arakawa, Kazuo, Sasuga, Tuneo, Seguchi, Tadao, Soda, Takao, Nakanishi, Hiroshi, Akada, Tamio, Yagi, Tetsuya, and Hagiwara, Miyuki}
abstractNote = {Radiation-thermal resistant greases were developed, using pentaphenyl ether (5P4E) and mono-alkyltetraphenyl ether (R-4P) for base oil and bentonite (B) for thickeners. The radiation-thermal resistance of the greases were evaluated by measuring changes in penetration, oil separation, weight loss (amount of volatilized and/or evaporated base oil), and molecular weight of base oil after irradiation with {gamma}-rays at high temperatures (125, 150, 175 and 200degC). The greases showed excellent stability against both radiation and high temperature, and was found usable under the condition up to 4 MGy at 150degC. (author).}
place = {Japan}
year = {1992}
month = {Nov}
}